Outage rates and outage durations of opportunistic relaying systems

Opportunistic relaying is a simple yet efficient cooperation scheme that achieves full diversity and preserves the spectral efficiency among the spatially distributed stations. However, the stations' mobility causes temporal correlation of the system's capacity outage events, which gives rise to its important second-order outage statistical parameters, such as the average outage rate (AOR) and the average outage duration (AOD). This letter presents exact analytical expressions for the AOR and the AOD of an opportunistic relaying system, which employs a mobile source and a mobile destination (without a direct path), and an arbitrary number of (fixed-gain amplify-and-forward or decode-and-forward) mobile relays in Rayleigh fading environment.

[1]  Milton Abramowitz,et al.  Handbook of Mathematical Functions with Formulas, Graphs, and Mathematical Tables , 1964 .

[2]  Mazen O. Hasna,et al.  A performance study of dual-hop transmissions with fixed gain relays , 2004, IEEE Transactions on Wireless Communications.

[3]  George K. Karagiannidis,et al.  Selective Cooperative Relaying over Time-Varying Channels , 2009, IEEE Transactions on Communications.

[4]  A. S. Akki Statistical properties of mobile-to-mobile land communication channels , 1994 .

[5]  Aggelos Bletsas,et al.  A simple Cooperative diversity method based on network path selection , 2005, IEEE Journal on Selected Areas in Communications.

[6]  Norman C. Beaulieu,et al.  Average level crossing rate and average fade duration of selection diversity , 2001, IEEE Communications Letters.

[7]  Hyundong Shin,et al.  Cooperative Communications with Outage-Optimal Opportunistic Relaying , 2007, IEEE Transactions on Wireless Communications.

[8]  George K. Karagiannidis,et al.  Performance analysis of single relay selection in rayleigh fading , 2008, IEEE Transactions on Wireless Communications.

[9]  Matthias Pätzold,et al.  Exact Closed-Form Expressions for the Distribution, the Level-Crossing Rate, and the Average Duration of Fades of the Capacity of OSTBC-MIMO Channels , 2009, IEEE Transactions on Vehicular Technology.

[10]  Mohamed-Slim Alouini,et al.  Outage probability of cooperative diversity systems with opportunistic relaying based on decode-and-forward , 2008, IEEE Transactions on Wireless Communications.

[11]  Gregory W. Wornell,et al.  Distributed space-time-coded protocols for exploiting cooperative diversity in wireless networks , 2003, IEEE Trans. Inf. Theory.

[12]  D. Owen Handbook of Mathematical Functions with Formulas , 1965 .

[13]  W. C. Jakes,et al.  Microwave Mobile Communications , 1974 .

[14]  Gordon L. Stüber,et al.  Statistical properties of amplify and forward relay fading channels , 2006, IEEE Transactions on Vehicular Technology.

[15]  M. Abramowitz,et al.  Handbook of Mathematical Functions With Formulas, Graphs and Mathematical Tables (National Bureau of Standards Applied Mathematics Series No. 55) , 1965 .